Seat pad and seat for vehicle

ABSTRACT

Ridge portions  9  are provided to be continuously present in orthogonally intersecting directions by forming plural recessed holes  8  in the upper surface of an under-thighs portion  2  and an under-buttocks portion  3  of a seat pad  1  for a vehicle. The height of each ridge portion  9 , i.e. the depth h of each recessed hole  8 , is preferably in the range of 2 to 40 mm, more preferably in the range of 5 to 20 mm, the width w of each recessed hole  8  is preferably in the range of 10 to 30 mm, more preferably in the range of 20 to 30 mm, and the area of an opening of each recessed hole 8 is preferably in the range of 50 to 1000 mm 2 , more preferably in the range of 100 to 900 mm 2 . Accordingly, the present invention can provide a seat pad, which is excellent in soft sensation of touch of a surface thereof, satisfactory in the properties of supporting an occupant, and can be produced by integral foam molding.

TECHNICAL FIELD

The present invention relates to a seat pad for a vehicle and a seat fora vehicle and, in particular, to a seat pad for a vehicle and a seat fora vehicle each having a passenger contact surface made to have softsensation of touch or good sensation of the pad making a strokemovement.

PRIOR ART

A seat pad mounted to a vehicle seat or the like is conventionallymanufactured by pouring an urethane blend raw liquid prepared byblending a polyol component blend liquid and an isocyante component,into a mold, and then foam molding the urethane blend raw liquid.

In a seat pad for a vehicle, an under-thighs portion and anunder-buttocks portion, which are brought into direct contact withbuttocks, back or the like of an occupant, receives a large portion ofthe weight of an occupant and thus a material of these portions closelyaffects sitting comfort and riding comfort.

In view of this, there have been proposed various types of seat cushionpads for a vehicle, in which modifications are made including increasingdensity of a sitting surface which most affects sitting comfort, whiledecreasing density of other portions thereof.

For example, JP 2002-153357 discloses a seat cushion pad for a vehicle,in which at least a part of the portions other than an under-buttocksportions of a sitting surface is structured to have lower density thanand substantially equal hardness to the under-buttocks portion. However,effecting foam molding by using materials of different types is costly.

Further, there has conventionally been used a seat pad for a vehicle, inwhich a slab urethane foam is pasted on a pad main body (e.g. JP9-271423). However, pasting a slab on a pad main body is costly.

JP 11-348629 discloses improving soft sensation of touch, of a surfaceof an under-buttocks portion of a seat pad made of polyurethane foam, byproviding the surface with slits having 5 mm depth in the longitudinaland widthwise directions with 50 mm intervals therebetween.

However, JP 11-348629 judges, as shown in FIGS. 3 and 4 thereof, thatthe pad surface thereof is soft by pressing a load applying means having50 mm diameter against the pad surface and measuring the hardnessthereof. When buttocks and/or thighs of an occupant are in contact withthe pad surface, the aforementioned slits of the pad surface hardlycontribute to the occupant's feeling soft sensation of touch and thusimprovement of soft sensation of touch is not satisfactory.

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention

An object of the present invention is to enable integrally producing aseat pad for a vehicle by foam molding, which seat pad is excellent insoft sensation of touch or sensation of the pad making a stroke movementand exhibits satisfactory supporting properties of an occupant. Anotherobject of the present invention is to provide a seat for a vehiclehaving such a seat pad for a vehicle as described above.

Means for Solving the Problems

In a first aspect of the present invention, a seat pad formed by a resinfoam molding body, for use in a vehicle, comprises ridge portions havingflat top surfaces and provided to be continuously present in pluraldirections, the ridge portions being provided between a number ofrecessed holes formed at least in a part of an occupant contact surfacearea of the seat pad.

In a second aspect of the present invention, the seat pad for a vehicleas recited in the first aspect is characterized in that the total ofareas of the top surfaces of the respective ridge portions thereofconstitute 20 to 80% of the total area of the recessed holes and theridge portions.

In a third aspect of the present invention, the seat pad for a vehicleas recited in the second aspect is characterized in that the total ofareas of the top surfaces of the respective ridges portions thereofconstitute 20 to 80% of the total area of the recessed holes and theridge portions.

In a fourth aspect of the present invention, the seat pad for a vehicleas recited in any of the first to third aspects is characterized in thatthe depth of each recessed hole is in the range of 2 to 40 mm.

In a fifth aspect of the present invention, the seat pad for a vehicleas recited in the fourth aspect is characterized in that the depth ofeach recessed hole is in the range of 5 to 20 mm.

In a sixth aspect of the present invention, the seat pad for a vehicleas recited in any of the first to fifth aspects is characterized in thatthe area of an opening of each recessed hole is in the range of 50 to1000 mm² and the width of each ridge portion is in the range of 2 to 10mm.

In a seventh aspect of the present invention, the seat pad for a vehicleas recited in the sixth aspect is characterized in that the area of anopening of each recessed hole is in the range of 100 to 900 mm² and thewidth of each ridge portion is in the range of 2 to 10 mm.

In an eighth aspect of the present invention, the seat pad for a vehicleas recited in any of the first to seventh aspects is characterized inthat the recessed holes and the ridge portions are provided at least inan under-thighs portion of the seat pad.

In a ninth aspect of the present invention, the seat pad for a vehicleas recited in any of the first to eighth aspects is characterized inthat the ridge portions are provided to be continuously present in twointersecting directions.

In a tenth aspect of the present invention, the seat pad for a vehicleas recited in the ninth aspect is characterized in that the ridgeportions are provided to be continuously present in two orthogonallyintersecting directions.

In an eleventh aspect of the present invention, the seat pad for avehicle as recited in the tenth aspect is characterized in that eachrecessed hole has a square shape.

In a twelfth aspect of the present invention, the seat pad for a vehicleas recited in any of the first to eighth aspects is characterized inthat the ridges are provided to be continuously present in threedirections.

In a thirteenth aspect of the present invention, the seat pad for avehicle as recited in the twelfth aspect is characterized in that eachrecessed hole has a triangular, polygonal, circular or substantiallyellipsoidal shape.

In a fourteenth aspect of the present invention, the seat pad for avehicle as recited in the twelfth aspect is characterized in that eachrecessed hole has a hexagonal shape.

In a fifteenth aspect of the present invention, a seat pad formed by aresin foam molding body, for use in a vehicle, comprises plural recessedholes formed at least in a part of an occupant contact surface area or apart of the rear surface area opposite to the occupant contact surfaceof the seat pad.

In a sixteenth aspect of the present invention, the seat pad for avehicle as recited in the fifteenth aspect is characterized in that thedepth of each recessed hole is in the range of 2 to 40 mm.

In a seventh aspect of the present invention, the seat pad for a vehicleas recited in the fifteenth or sixteenth aspect is characterized in thatthe area of an opening of each recessed hole is in the range of 50 to1000 mm².

In an eighteenth aspect of the present invention, the seat pad for avehicle as recited in any of the fifteenth to seventeenth aspects ischaracterized in that each recessed hole has a triangular, square,polygonal, circular or elongated hole-like shape.

In a nineteenth aspect of the present invention, the seat pad for avehicle as recited in any of the fifteenth to eighteenth aspects ischaracterized in that portions between the recessed holes constituteridge portions.

In a twentieth aspect of the present invention, the seat pad for avehicle as recited in the nineteenth aspect is characterized in that thewidth of each ridge portion is in the range of 2 to 10 mm.

In a twenty-first aspect of the present invention, the seat pad for avehicle as recited in the nineteenth or twentieth aspect ischaracterized in that the ridge portions are provided to be continuouslypresent in two intersecting directions.

In a twenty-second aspect of the present invention, the seat pad for avehicle as recited in the nineteenth or twentieth aspect ischaracterized in that the ridge portions are provided to be continuouslypresent in three directions.

In a twenty-third aspect of the present invention, the seat pad for avehicle as recited in the twenty-second aspect is characterized in thateach recessed hole has a hexagonal shape.

In a twenty-fourth aspect of the present invention, the seat pad for avehicle as recited in any of the nineteenth to twenty-third aspects ischaracterized in that a volume rate of the ridge portions in a regionwhere the recessed holes and the ridge portions are provided is in therange of 10 to 80%.

In a twenty-fifth aspect of the present invention, the seat pad for avehicle as recited in twenty-fourth aspect is characterized in that thevolume rate of the ridge portions is in the range of 40 to 60%.

In a twenty-sixth aspect of the present invention, the seat pad for avehicle as recited in any of the nineteenth to twenty-fifth aspects ischaracterized in that the ridge portions have flat top surfaces.

In a twenty-seventh aspect of the present invention, the seat pad for avehicle as recited in any of the nineteenth to twenty-sixth aspects ischaracterized in that at least one of a corner edge where the topsurface and a side surface of each ridge portion intersects each otherand a corner edge where a side surface of each ridge portion and thebottom surface of an adjacent recessed hole intersects each other has acurved surface.

In a twenty-eighth aspect of the present invention, the seat pad for avehicle as recited in any of the nineteenth to twenty-sixth aspects ischaracterized in that a sectional area of an opening of each recessedhole remains substantially unchanged from an entrance portion to thedeepest bottom portion thereof.

In a twenty-ninth aspect of the present invention, the seat pad for avehicle as recited in any of the nineteenth to twenty-seventh aspects ischaracterized in that a sectional area of an opening on the deeper sideof the each recessed hole is smaller than a sectional area of theopening on the entrance side of the recessed hole.

In a thirtieth aspect of the present invention, the seat pad for avehicle as recited in any of the first to twenty-ninth aspects ischaracterized in that the seat pad is formed of polyurethane foam havingdensity of 20 to 100 kg/cm³, 25% ILD hardness of 5 to 45 kgf/200 mmφ.

In a thirty-first aspect of the present invention, the seat pad for avehicle as recited in the thirtieth aspect is characterized in that theseat pad is formed of polyurethane foam having density of 35 to 100kg/cm³, 25% ILD hardness of 15 to 45 kgf/200 mmφ.

In a thirty-second aspect of the present invention, the seat pad for avehicle as recited in any of the fifteenth to thirty-first aspects ischaracterized in that the recessed holes are formed at least in a partof an occupant contact surface area.

In a thirty-third aspect of the present invention, the seat pad for avehicle as recited in the thirty-second aspect is characterized in thatthe seat pad is a seat cushion pad, in which a corner edge region wherea sitting surface and a front surface thereof intersect each other lacksthe recess holes.

In a thirty-fourth aspect of the present invention, the seat pad for avehicle as recited in the thirty-third aspect is characterized in thatthe corner edge region is a region having a radius of curvature of 100mm or less.

In a thirty-fifth aspect of the present invention, the seat pad for avehicle as recited in any of the thirty-second to thirty-fourth aspectsis characterized in that the recessed holes are provided at least in anunder-thighs portion of the seat pad.

In a thirty-sixth aspect of the present invention, the seat pad for avehicle as recited in the thirty-five aspect is characterized in thatthe recessed holes are formed such that a portion under the right thigh,of the under-thighs portion, is softer than other portions of theunder-thighs portion.

In a thirty-seventh aspect of the present invention, the seat pad for avehicle as recited in any of the thirty-second to thirty-fourth aspectsis characterized in that the recessed holes are formed only in a portionunder the right thigh, of the seat pad.

In a thirty-eighth aspect of the present invention, the seat pad for avehicle as recited in any of the thirty-second to thirty-seventh aspectsis characterized in that the recessed holes are formed in a frontsurface which is to face the lower parts of legs of an occupant.

In a thirty-ninth aspect of the present invention, the seat pad for avehicle as recited in any of the fifteenth to thirty-first aspects ischaracterized in that the recessed portions are formed at least in apart of the rear surface area opposite to the occupant contact surface.

In a fortieth aspect of the present invention, the seat pad for avehicle as recited in the thirty-ninth aspect is characterized in thatthe recessed holes are formed at least in a bottom surface below theunder-thighs portion.

In a forty-first aspect of the present invention, the seat pad for avehicle as recited in the fortieth aspect is characterized in that therecessed holes are formed such that a portion under the right thigh, ofthe under-thighs portion, is softer than other portions of theunder-thighs portion.

In a forty-second aspect of the present invention, the seat pad for avehicle as recited in the thirty-ninth aspect is characterized in thatthe recessed holes are formed only in the bottom portion below theportion under the right thigh, of the seat pad.

In a forty-third aspect of the present invention, a seat for a vehicle,having a cushion pad and a back pad constituted of the seat pad asrecited in the thirty-second to thirty-fourth aspects, is characterizedin that recessed holes in the back pad is deeper than recessed holes inthe cushion pad.

In a forty-fourth aspect of the present invention, the seat for avehicle as recited in the forty-third aspect is characterized in thatthe recessed holes are formed at least in an under-thighs portion of thecushion pad and a back contact portion of the back pad.

In a forty-fifth aspect of the present invention, a seat for a vehicle,having a cushion pad and a back pad constituted of the seat pad asrecited in the thirty-ninth aspect, is characterized in that recessedholes in the back pad is deeper than recessed holes in the cushion pad.

In a forty-sixth aspect of the present invention, the seat for a vehicleas recited in the forty-fifth aspect is characterized in that therecessed holes are formed at least in a bottom surface below anunder-thighs portion of the cushion pad and a rear surface behind a backcontact portion of the back pad.

EFFECT OF THE INVENTION

In the seat pad for a vehicle as recited in a first embodiment of thepresent invention, a number of recessed holes are formed at least in apart of an occupant contact surface area of the seat pad, whereby theridge portions are provided between the recessed holes so as to becontinuously present in plural directions. As a result of provision ofthe ridge portions, soft sensation of touch, of the occupant contactsurface, improves because the ridge portions are compression-deformedwhen an occupant is in contact with the occupant contact surface, ascompared with the case where the recessed holes are not provided. In astate where the ridge portions are compression-deformed beyond thepredetermined degree, repellent force of the ridge portions increasesand an occupant is firmly supported.

In the seat pad for a vehicle of the present invention, not independentprojections but the ridge portions are provided so as to be continuouslypresent in plural directions. Since the ridge portions do not sufferfrom buckling even when the ridge portions are significantlycompression-deformed due to the weight of an occupant, good sittingcomfort can be obtained.

Sitting comfort improves by setting the depth of each recessed hole inthe range of 2 to 40 mm, more preferably in the range of 5 to 20 mm.

Good sitting comfort can be obtained by setting the area of an openingof each recessed hole in the range of 50 to 1000 mm², more preferably inthe range of 100 to 900 mm², and the width of each ridge portion in therange of 2 to 10 mm.

Soft sensation of touch, of the occupant contact surface, can beobtained in a satisfactory manner by setting the total of areas of thetop surfaces of the respective ridge portions to constitute 20 to 80%,more preferably 20 to 50%, of the total area of the recessed holes andthe ridge portions.

The configurations of cavity surfaces of a mold can be made simple andan occupant is less likely to feel poor sitting comfort due to a wrongextending direction of the ridge portions, by providing the ridgeportions in two intersecting directions, in particular, in twoorthogonal directions.

The ridge portions can be provided to be continuously present or extendin two orthogonal directions in a lattice-like manner by shaping eachrecessed hole to be square.

The ridge portions may be continuously present in more than twodirections. In this case, the shape of each recessed hole may be any oftriangular, polygonal, circular, substantially circular and the like.

The ridge portions can be provided to continuously and linearly extendin intersecting three directions by shaping each recessed hole to behexagonal and arranging the respective recessed holes in ahoneycomb-like structure, so that an occupant is less likely to feelpoor sitting comfort due to a wrong extending direction of the ridgeportions. Further, foaming raw liquid is facilitated to enter theportions to form the ridge portions, in a cavity surface of a mold, byforming the ridge portions to be continuously present in threeintersecting directions in honeycomb-like structure, whereby there isobtained an effect of enhancing the yield of molding.

The seat pad of the first embodiment of the invention may be either aseat cushion pad or seat back pad.

In the seat pad for a vehicle as recited in a second embodiment of thepresent invention, plural recessed holes are formed at least in a partof an occupant contact surface area or a part of the rear surface areaopposite to the occupant contact surface of the seat pad. As a result,soft sensation of touch or sensation of the pad making a stroke movementimproves because the portions between the recessed holes arecompression-deformed when an occupant is in contact with theaforementioned areas where the recessed holes are formed. Soft sensationof touch especially improves by forming the recessed holes in theoccupant contact surface. In a case where when plural recessed holes areformed at least in a part of the occupant contact surface and a part ofthe rear surface opposite to the occupant contact surface, satisfactorysensation of the pad making a stroke movement can be obtained when anoccupant sits on or leans against the occupant contact surface becausethe portions between the recessed holes are compression-deformed andmake a stroke movement in a manner that the pad recedes backwards.Sensation of the pad making a stroke movement under an occupant's thighsincreases by forming the recessed holes in the rear surface below theunder-thigh portions of the seat pad.

The seat pad of the second embodiment of the invention may be either aseat cushion pad or seat back pad.

Sitting comfort improves by setting the depth of each recessed hole inthe range of 2 to 40 mm.

Satisfactory sitting comfort can be obtained by setting the area of anopening of each recessed hole in the range of 50 to 1000 mm².

In the seat pad for a vehicle of the present invention, it is preferableto structure portions between the recessed holes not as independentprojections but as the ridges continuously present in plural directions.It is particularly preferable that the ridge portions are continuouslypresent in two or three directions. These ridge portions do not sufferfrom buckling when they are deeply compression-deformed by the weight ofan occupant and thus achieve satisfactory sitting comfort. Further, anoccupant is less likely to feel poor sitting comfort due to a wrongextending direction of the ridge portions, by providing the ridgeportions to be continuously present in two or three directions.

Further, in a case where the ridge portions are provided to becontinuously present in three intersecting directions as describedabove, foaming raw liquid is facilitated to enter the portions to formthe ridge portions, in a cavity surface of a mold, and an effect ofenhancing the yield of molding can be obtained, as well.

Good sitting comfort is obtained by setting the width of each ridgeportion in the range of 2 to 10 mm.

Odd sensation of touch felt by an occupant when the occupant touches theridge portions is reduced and thus satisfactory sensation of touch isobtained by making top surfaces of each ridge portion flat.

The shape of each recessed portion may be any of triangle, square,polygon, circle, elongated hole-like shape (e.g. rectangle, oval,elongated groove) and the like.

Satisfactory soft sensation of touch is obtained by setting a volumerate of the ridge portions in a region where the recessed holes and theridge portions are provided in the range of 10 to 80%. Further, not onlysatisfactory soft sensation of touch but also satisfactory durability ofthe ridge portions can be obtained by setting the volume rate of theridge portions in the range of 40 to 60%.

In a case where the sectional area of an opening of each recessed holeremains substantially unchanged from an entrance portion to the deepestbottom portion thereof, the widths of the ridge portions between therecessed portions remain substantially unchanged from the base end tothe tip end, whereby the gradient of a stress-strain curve duringcompression deformation is relatively gentle and satisfactory sittingcomfort is obtained.

In the present invention, durability of the ridge portions or theprotruding portions is enhanced by providing a corner edge of each ridgeportion or each protruding portion with a curved face.

Soft sensation of touch, of the under-thigh portions of the seat pad,improves by forming the recessed holes in the under-thigh portions orthe bottom surface of the seat pad below the under-thigh portions.

In an embodiment of the seat pad for the driver's seat in a vehicle ofthe present invention, a portion under the right thigh, of theunder-thighs portion, is made softer than other portions of theunder-thighs portion by forming the recessed holes in the portion underthe right thigh, of the under-thighs portion or the bottom surface ofthe seat pad therebelow. In this embodiment, satisfactory soft sensationof touch is obtained when the occupant, i.e. the driver, presses his/herright thigh upon the seat. The properties of supporting the driver'sbody are also satisfactory because the portions of the seat pad otherthan the portion under the right thigh, of the under-thighs portion, areharder than the portion under the right thigh.

The entire part of the under-thighs portion may be made softer than theunder-buttocks portion. In this case, the portion under the right thigh,of the under-thighs portion, may be made particularly soft. Softsensation of touch, of the portion under the left thigh, of theunder-thighs portion, is also improved in such a structure.

In an embodiment of the seat pad of the present invention, the surfacelayer portion of the front surface of the cushion pad is made soft byproviding the front surface with protruding portions and recessedportions. These protruding and recessed portions are easilycompression-deformed when the lower leg portions, e.g. calves, of anoccupant are in contact therewith, whereby the occupant feels softsensation of touch therewith.

In another embodiment of the seat pad of the present invention, noprotruding and recessed portions are provided in a corner edge portionbetween the sitting surface and the front surface. As a result,protrusions and recesses are not reflected on a cover material in anengraved manner when the cover material is attached to the corner edge.Regarding the sitting surface and the front surface other than thecorner edge, protrusions and recesses do not appear therein on the covermaterial in an engraved manner, if protrusions and recesses exist,because the sitting surface and the front surface are substantiallyplanar.

In an embodiment of the seat pad for a vehicle of the present invention,plural recessed holes are formed at least in a part of the occupantcontact surface area or a part of the surface area opposite to theoccupant contact surface of a cushion pad and a back pad such that therecessed holes in the back pad are deeper than the recessed holes in thecushion pad. Improved soft sensation of touch or sensation of the padmaking a stroke movement, of the occupant contact surface, can beobtained because the portions between the recessed holes arecompression-deformed when an occupant is in contact with these areas.Further, satisfactory soft sensation of touch or sensation of the padmaking a stroke movement, of the back pad, can be obtained because therecessed holes in the back pad are deeper than the recessed holes in thecushion pad.

Soft sensation of touch or sensation of the pad making a strokemovement, of the under-thighs portion and the back contact portion,improves by forming the recessed holes either in the under-thighsportion and the back contact portion of the seat pad or the bottomsurface of the cushion pad below the under-thighs portion and the rearsurface of the back pad behind the back contact portion.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a plan view of a seat pad for a vehicle according to anembodiment of the present invention.

FIG. 2 is an enlarged perspective view of a sitting surface.

FIG. 3 is a sectional view cut along the line III-III of FIG. 2.

FIG. 4 is a sectional view showing another configuration of a recessedhole and a ridge portion.

FIG. 5 is a plan view of a part of a bottom surface showing yet anotherconfiguration of the recessed and a ridge portion.

FIG. 6 is a plan view of a part of a bottom surface showing yet anotherconfiguration of the recessed and the ridge portion.

FIG. 7 is a plan view of a seat pad according to another embodiment ofthe present invention.

FIG. 8 is a plan view of a seat pad according to yet another embodimentof the present invention.

FIG. 9 is a plan view of a seat pad for a vehicle according to anotherembodiment of the present invention.

FIG. 10 is a sectional view cut along the line X-X of FIG. 9.

FIG. 11 is a sectional view of a seat pad blank of FIG. 9.

FIG. 12 is a sectional view of a mold for molding the seat pad of FIG.9.

FIG. 13 is a plan view of a seat pad for a vehicle according to yetanother embodiment of the present invention.

FIG. 14 is a sectional view cut along the line XIV-XIV of FIG. 13.

FIG. 15 is a sectional view of a seat pad blank of FIG. 13.

FIG. 16 is a sectional view of a mold for molding the seat pad of FIG.13.

FIG. 17 is a plan view of a seat cushion pad for a vehicle according toan embodiment of the present invention.

FIG. 18 is an enlarged perspective view of a bottom surface of thecushion pad.

FIG. 19 is a sectional view cut along the line XIX-XIX of FIG. 18.

FIG. 20 is a front view of a back pad according to an embodiment of thepresent invention.

FIG. 21 is a front view of a back pad for a vehicle of an embodiment ofthe present invention.

FIG. 22 is a graph showing the results of Example and ComparativeExamples.

FIG. 23 is a graph showing the results of Examples and ComparativeExample.

FIG. 24 is a graph showing the results of Examples and ComparativeExample.

FIG. 25 is a graph showing the results of Examples and ComparativeExample.

FIG. 26 is a graph showing the results of Examples and ComparativeExamples.

BEST MODE FOR IMPLEMENTING THE INVENTION

An embodiment of the present invention will be described hereinafterwith reference to the drawings. In the drawings, the reference numbers1, 1A, 1B, 1C, 1D and 21 represent a seat pad for a vehicle, 2represents an under-thighs portion, 3 represents an under-buttocksportion, 7 represents a portion under the right thigh, 8, 10 and 12represent recessed holes, 9, 9A, 11 and 13 represent ridge portions, 23represents a pelvis contact portion, and 40 and 50 represent a back pad,of the seat pad.

[Seat Pad for a Vehicle, of which Under-Thighs Portion is Made Soft byRecessed Holes]

FIG. 1 is a plan view of a seat pad for a vehicle according to anembodiment of the present invention. FIG. 2 is an enlarged perspectiveview of a sitting surface. FIG. 3 is a sectional view cut along the lineIII-III of FIG. 2.

The seat pad 1 for a vehicle is formed by polyurethane foam, which isintegrally foam molded as a whole. The seat pad 1 includes theunder-thighs portion 2, the under-buttocks portion 3 and side portions4.

In the upper surface of the seat pad 1 for a vehicle, longitudinalfitting grooves 5 and a lateral fitting groove 6 for fitting a covermaterial (not shown) are formed such that these grooves form a H-likeconfiguration. A portion situated forward of the fitting groove 6 andbetween the fitting grooves 5 constitutes the under-thighs portion 2,and a portion situated back of the fitting groove 6 and between thefitting grooves 5 constitutes the under-buttocks portion 3.

In the upper surface of the under-thighs portion 2 of the seat pad 1 fora vehicle, plural (in the drawings, a number of) recessed holes 8 areformed so that the ridge portions 9 are provided to be continuouslypresent in the orthogonally intersecting directions. In the presentembodiment, a section orthogonal to the sitting surface of each ridgeportion 9 has a rectangular shape and the sectional area of an openingof each recessed hole 8 (the sectional area in the direction orthogonalto the depth direction of the recessed hole 8) is unchanged from theentrance portion to the deep bottom portion of the recessed hole.Accordingly, the width t of a section of the ridge portion 9 is constantfrom the base end (the lower end) to the tip end (the upper end). Theridge portion 9 may have a trapezoidal sectional shape in which thewidth t decreases toward the tip end. The plan-view configuration ofeach recessed hole 8 is square in the drawings but may be rectangular.

In the present embodiment, the ridge portions 9 are continuouslyprovided in the front-rear direction and the left-right direction of theseat pad 1 for a vehicle. However, the ridge portions 9 may becontinuously provided in the directions inclined by 45° with respect tothe front-rear direction. In this case, the shape of the opening of eachrecessed hole 8 is preferably a square so that the shape of the openingis line-symmetrical. The top surface of each ridge portion 9 is flat,and continuous and flush with the sitting surface surrounding the regionwhere the recessed holes 8 and the ridge portions 9 are provided.

The height of each ridge portion 9, i.e. the depth h of each recessedhole 8, is preferably in the range of 2 to 40 mm, more preferably in therange of 5 to 20 mm, and particularly preferably in the range of 10 to15 mm. The width (thickness) t of each ridge portion 9 is preferably inthe range of 2 to 20 mm, more preferably in the range of 4 to 10 mm. Thewidth w of each recessed hole 8 is preferably in the range of 10 to 30mm, more preferably in the range of 20 to 30 mm. The area of the openingof each recessed hole 8 is preferably in the range 50 to 1000 mm², morepreferably in the range of 100 to 900 mm², and particularly preferablyin the range of 400 to 700 mm². In a case where the width (thickness) tof each recessed hole 9 changes, for example, in the height directionthereof as shown in FIG. 4, the width (thickness) t of the ridge portion9, the width w of the recessed hole 8, and the opening area of therecessed hole 8 represent the thickness, the width and the opening areaat the middle position in the height direction, respectively.

The total of areas of the top surfaces of the respective ridge portions9 is preferably in the range of 20 to 80%, more preferably in the rangeof 20 to 50%, and particularly preferably in the range of 25 to 35%, ofthe total areas of the recessed holes 8 and the ridge portions 9.

The volume rate of the ridge portions 9 is preferably in the range of 10to 80%, more preferably in the range of 25 to 70%, and particularlypreferably in the range of 40 to 60%, wherein a volume rate of the ridgeportions represents a ratio of the volume of the ridge portions 9 withrespect to the volume a·b·h obtained by multiplying the area of theregion where the ridge portions 9 and the recessed holes 8 are provided(a×b in FIG. 2) with the depth h of the recessed hole 8. Satisfactorysoft sensation of touch, of the portion under the right thigh of theseat pad, is obtained by setting the volume rate in the range of 10 to80%. Further, not only satisfactory soft sensation of touch, of theportion under the right thigh, but also satisfactory durability of theridge portions can be obtained by setting the volume rate in the rangeof 40 to 60%.

The seat pad 1 for a vehicle is integrally molded as a whole by usingpolyurethane foam having density preferably in the range of 20 to 100kg/m³, more preferably in the range of 35 to 100 kg/m³, and particularlypreferably in the range of 60 to 70 kg/m³, and 25% ILD hardnesspreferably in the range of 5 to 45 kgf/200 mmφ, more preferably in therange of 15 to 45 kgf/200 mmφ, and particularly preferably in the rangeof 15 to 35 kgf/200 mmφ. The recessed holes 8 are formed by providing acavity surface, preferably the bottom surface of the cavity, of a moldwith a protruding portion.

A cover material (not shown) is then attached to cover the polyurethanemolding, whereby a seat pad for a vehicle, as a product, is obtained.

When an occupant sits on the sitting surface of the seat pad 1 for avehicle structured as described above, only the ridge portions 9 arecompression-deformed at the initial stage in which the lower part of theoccupant's body is brought into contact with the sitting surface, sothat the occupant feels soft sensation of touch. Then, as the occupant'sbody further sinks and the ridge portions 9 are furthercompression-deformed, the repellent force of the ridge portions 9increases strong enough to stably support the occupant's body.

In the present embodiment, the ridge portions 9 are reliably preventedfrom being buckled when an occupant sits thereon because the ridgeportions are continuously provided in two orthogonal directions in alattice-like structure.

In a case where the width w of each recessed hole 8 and the height h andthe width t of each ridge portion 9 are set in the aforementionedranges, an occupant hardly feels presence of the recessed holes 8 andthe ridge portions 9 when he/she sits thereon, whereby good sensation oftouch is obtained. Further, sensation of touch is further improvedbecause the top surface of each ridge portion 9 is flat. Yet further,the gradient of a stress-strain curve during compression deformation isgentle because the width t of a section of each ridge portion 9 isunchanged from the base end to the tip end, whereby satisfactory sittingcomfort is obtained.

Although the recessed holes 8 and the ridge portions 9 are provided inthe under-thighs portion 2 in the present embodiment, the recessed holes8 and the ridge portions 9 may be provided in both the under-thighsportion 2 and the under-buttocks portion 3 or only one of theunder-thighs portion 2 and the under-buttocks portion 3.

[Description of Recess Holes Having Other Configurations]

Although the sectional area of an opening of each recessed hole 8 in thedepth direction thereof is constant, a section of each ridge portion 9orthogonal to the sitting surface is rectangular and the width t of eachridge portion 9 is constant from the base (lower) end to the tip (upper)end in the present embodiment shown in FIGS. 1 to 3, the presentinvention is not limited thereto. For example, each recessed hole 8 mayhave a trapezoidal, semicircular, semi-oval or a U-like sectional shapeso that an sectional area of the opening of each recessed hole 8decreases from the entrance side toward the deep bottom side thereof andthe width t of each ridge portion decreases toward the tip end thereof.Further, a corner edge on the base end side or the upper end side ofeach ridge portion may be provided with a curved surface, as in theridge portion 9A shown in FIG. 4. Durability of the ridge portionimproves by being provided with such a curved surface as describedabove. The radius of curvature of the curved surface is preferably inthe range of 1 to 20 mm, more preferably in the range of 1 to 10 mm. Thecorner edge on the base end side represents a corner portion connectinga side face of the ridge portion 9A and a bottom surface of an adjacentrecessed hole 8, and the corner edge on the tip end side represents acorner edge where a side face of the ridge portion 9A intersects the topsurface of the ridge portion 9A. The radius of curvature of the curvedsurface may be approximately a half of the depth h of the recessed hole.With such a structure as described above, side surfaces of each ridgeportion are constituted of only curved surfaces and durability of theridge portion is further improved.

The plan view configuration of each recessed hole 8 is a square in FIGS.1 to 3 to make the with t of each ridge portion 9 constant in thelongitudinal direction thereof. However, a plan view configuration ofeach recessed hole may have an elongated shape such as a rectangle, anoval, an elongated groove-like shape, or a polygonal shape such as atriangle or a hexagon, or a circular shape.

In FIG. 5, the recessed holes 10 each having an equilateral hexagonalshape are arranged in a honeycomb structure so that portions between therecessed holes 10 constitute the ridge portions 11.

The width (thickness) t of each ridge portion 11 is preferably in therange of 2 to 20 mm, more preferably in the range of 4 to 10 mm, and thelength of the diagonal line of each recessed hole 10 is preferably inthe range of 10 to 40 mm, more preferably in the range of 15 to 30 mm.The preferable ranges of the opening area of each recessed hole 10, theheight of each ridge portion 11 (the depth of each recessed hole 10) andthe portion of the areas of top surfaces of the ridge portions 11, thepreferable range of the volume rate of the ridge portions, thepreferable material for the seat pad, and the like are similar to thosedescribed in the embodiment of FIGS. 1 to 3.

Although each recessed hole has an equilateral hexagonal shape in FIG.5, the recessed hole may have a hexagonal shape other than anequilateral hexagon. However, a hexagon where opposite sides areparallel to each other are preferable and an equilateral hexagon is themost preferable.

In FIG. 6, circular recessed holes 12 are arranged such that the centersof the respective circles are situated at the respective apexes ofequilateral triangles and the portions between the recessed holes 12constitute the ridge portions 13.

The diameter of each recessed hole 12 is preferably in the range of 10to 40 mm, more preferably in the range of 15 to 30 mm. The thickness ofthe narrowest portion of the ridge portions 13 between the adjacentrecessed holes 12 is preferably in the range of 2 to 20 mm, morepreferably in the range of 4 to 10 mm. The preferable ranges of theopening area of each recessed hole 12, the height of each ridge portion13 (the depth of each recessed hole 12) and the portion of the areas oftop surfaces of the ridge portions 13, the preferable range of thevolume rate of the ridge portions 13, the preferable material for theseat pad, and the like are similar to those described in the embodimentof FIGS. 1 to 3.

In a case where the ridge portions are continuously provided in threedirections as shown in FIGS. 5 and 6, poor sitting comfort due to awrong extending direction of the ridge portions is alleviated, ascompared with a case where the ridge portions are continuously providedin two directions.

The seat pad for a vehicle, having the recessed holes and the ridgeportions as shown in FIGS. 5 and 6, are molded by using a mold having acavity surface, especially such a mold in which the bottom surface of acavity is provided with projecting portions and recessed grooves of theshapes corresponding to the recessed holes and the ridge portions.

In a case where the ridge portions are provided continuously in threedirections as shown in FIGS. 5 and 6, urethane raw liquid supplied to aportion of the bottom surface of a cavity flows between theaforementioned protruding portions and is easily distributed to everycorner of the cavity. Specifically, in a case where the ridge portionsare provided continuously in three directions as shown in FIGS. 5 and 6,urethane raw liquid flows through the recessed grooves for forming theridge portions 11, 13 provided at the cavity surface (the bottomsurface) of the mold, with meandering by approximately 60° with respectto the longitudinal direction, whereby urethane raw liquid easily flowsbetween the projecting portions. In contrast, in the case shown in FIGS.1 to 3 where urethane raw liquid flows with meandering by 90° withrespect to the longitudinal direction, urethane raw liquid flows lesseasily than the case where urethane raw liquid meanders by 60° withrespect to the longitudinal direction.

[Seat Bad for Vehicle, in which Portions Other than Pelvis ContactPortion, of the Sitting Surface, are Made Soft by Recessed Holes]

In the seat pad 21 of FIG. 7, the pelvis contact portion 23 is made flatto firmly support the pelvis, while other portions of the sittingsurface 22 are made soft by the aforementioned protruding and recessedportions provided therein. Although each pelvis contact portion 23 is acircular region having a diameter of approximately 20 to 100 mm in FIG.7, the pelvis contact region may be a square, polygonal, oval region orthe like having substantially the same area as the circular region.

[Seat Pad for Vehicle, in which a Portion Under the Right Thigh Thereofis Made Soft by Recessed Holes]

FIG. 8 is a plan view of a seat pad for the driver's seat in a vehicleaccording to an embodiment in which a portion under the right thigh ofthe seat pad is made soft by recessed holes.

In this seat pad 1A, the top surface of a portion under the right thigh7 in the under-thighs portion 2 is provided with plural recessed holesand ridge portions. The portion under the right thigh 7 represents aregion of the seat pad which an occupant's right thigh is in contactwith when the occupant sits on the driver's seat. The side 7 a on theleft, of the under-right thigh portion 7, is normally distancedrightward from the center line C of the seat pad 1A by preferably 10 to50 mm, more preferably 30 to 40 mm. The side 7 b on the right, of theunder-right thigh portion 7, is normally distanced rightward from thecenter line C of the seat pad 1A by preferably 100 to 200 mm, morepreferably 120 to 150 mm. The width of the under-right thigh portion 7in the left-right direction, i.e. the distance between the left side 7 aand the right side 7 b, is preferably in the range of 50 to 200 mm, morepreferably in the range of 80 to 120 mm. The length L of the under-rightthigh portion 7 in the front-rear direction is preferably in the rangeof 100 to 300 mm, more preferably in the range of 150 to 250 mm. Thefront end of the under-right thigh portion 7 is preferably locatedwithin 50 mm, more preferably within 5 to 30 mm, from the frontmost end1 f of the seat pad 1A.

In the present embodiment, the shapes, dimensions and the like of therecessed holes and the ridge portions may be any of those describedabove.

When an occupant sits on the seat pad 1A for the driver's seatstructured as described above and the right thigh of the occupant ispressed against the under-right thigh portion 7, only the ridge portionsare initially compression-deformed and the occupant feels soft sensationof touch. Accordingly, the sensation of touch, of the seat pad, felt bythe right thigh when the brake or the axle is operated by the right footis soft and satisfactory. As the right thigh sinks deeply and the ridgeportions are further compression-deformed, the repellent force of theridge portions increases strong enough to stably support the rightthigh.

Although only the under-right thigh portion 7 is made soft in thepresent embodiment, it is acceptable that the under-thighs portion 2 asa whole is made softer than the under-buttocks portion 3 and theunder-right thigh portion 7 is made further softer than the otherportions of the under-thighs portion 2. The entire under-thighs portion2 can be made soft by providing the recessed holes in the entire part ofthe under-thighs portion 2. The under-right thigh portion 7 can be madesofter than the other portions of the under-thighs portion by increasingthe depths of the recess holes and/or reducing the widths of the ridgeportions.

[Seat Pad for Vehicle, in which the Front Portion Thereof is Made Softby Recessed Holes]

FIG. 9 is a plan view of a seat pad for a vehicle, in which the frontportion of the seat pad is made soft by recessed holes provided therein.FIG. 10 is a sectional view cut along the line X-X of FIG. 9. FIG. 11 isa sectional view of a blank of the seat pad for a vehicle of FIG. 9.FIG. 12 is a sectional view of a mold for molding the seat pad of FIG.9.

In the present embodiment, the front surface of the seat pad 1B isprovided with plural recessed holes 8 and the ridge portions, so thatthe front surface of the seat pad 1B is easily compression-deformed.Accordingly, soft sensation of touch is obtained when the lower parts oflegs of the occupant are in contact with the front surface. The frontsurface of the seat pad represents a vertical surface of which tangentline is inclined at least 50°, in particular, at least 70° with respectto the horizontal plane. The width in the left-right direction of aregion where the recessed holes 8 are formed in the front surface ispreferably in the range of 100 to 400 mm, more preferably in the rangeof 300 to 350 mm, and the width in the vertical direction of the regionis preferably in the range of 30 to 100 mm, more preferably in the rangeof 50 to 70 mm.

In the present embodiment, the shapes, dimensions and the like of therecessed holes and the ridge portions may be any of those describedabove.

The seat pad 1B is manufactured by producing a blank thereof as shown inFIG. 11B by using a mold 30 shown in FIG. 12 and then bending the frontportion of the seat pad blank downward as indicated by the arrow A.

The mold 30 includes an upper mold 31 and the lower mold 32. The bottomsurface of a cavity of the lower mold 31 is provided with protrudingportions 33 for forming the recessed holes 8. The recessed holes 8 ofthe seat pad blank are not hooked by the protruding portions 33 and canbe smoothly released from the mold, thereby being prevented fromdamages, because the protruding portions 33 are provided to simplyprotrude upward from the bottom surface of the cavity. The protrudingportions 33 may be mounted to the lower mold 31 in a detachable manner.The seat pad blank inside the mold 30 is positioned upside down, ascompared with the seat pad as a finished product.

[Seat Pad for Vehicle, in which the Front and Sitting Surfaces areProvided with Recessed Holes, while a Corner Edge where these SurfacesIntersect Each Other Lacks Recessed Holes]

FIG. 13 is a plan view of a seat pad for a vehicle, in which the frontand sitting surfaces of the seat pad are provided with recessed holes,while a corner edge where these surfaces intersect each other lacksrecessed holes. FIG. 14 is a sectional view cut along the line XIV-XIVof FIG. 13. FIG. 15 is a sectional view of a blank of the seat pad for avehicle of FIG. 13. FIG. 16 is a sectional view of a mold for moldingthe seat pad of FIG. 13.

In the present embodiment, the under-thighs portion 2 and the frontsurface 1 f (the dotted regions in FIG. 13) of the seat pad 1C areprovided with plural recessed holes 8, so that the under-thighs portion2 and the front surface 1 f are easily compression-deformed.Accordingly, soft sensation of touch is obtained when an occupant sitson the seat and his/her thighs are pressed against the under-thighsportion 2 and/or his/her lower legs hit the front surface 1 f.

In the present embodiment, the recessed holes 8 are not formed in acorner edge 1 g where the sitting surface and the front surfaceintersect each other. Accordingly, recessed holes are not reflected on acover material in an engraved manner when the pad is covered with thecover material.

In a case where the corner edge portion 1 g has a radius of curvature ofnot larger than 100 mm, in particular, not larger than 80 mm, e.g. 40 to60 mm, and thus is strongly curved, it is prevented that recessed holesare reflected on the cover material in an engraved manner by not formingthe recessed holes 8 in the corner edge region.

The front surface 1 f of the seat pad corresponds to the verticalsurface lower than the corner edge portion 1 g and represents a regionsimilar to the front surface in the embodiment of FIG. 9.

In the present embodiment, the shapes, dimensions and the like of therecessed holes and the ridge portions may be any of those describedabove.

The seat pad 1C is manufactured by producing a blank thereof as shown inFIG. 15 by using a mold 30A shown in FIG. 16 and then bending the frontportion of the seat pad blank downward as indicated by the arrow A.

The mold 30A includes an upper mold 31 and the lower mold 32 as in themold 30. The bottom surface of a cavity of the lower mold 31 is providedwith projecting portions 33 for forming the recessed holes 8.

[Seat Pad for Vehicle, in which Satisfactory Sensation of the Pad Makinga Stroke Movement is Obtained by Forming Recessed Holes in the RearSurface of the Seat Pad]

In another embodiment of the seat pad for a vehicle of the presentinvention, plural recessed holes are formed at least in a part of therear surface of the resin foam molding body, i.e. the rear surfaceopposite to the occupant contact surface. Satisfactory sensation of thepad making a stroke movement is obtained because the portions betweenthe recessed holes are compression-deformed and the pad makes a strokemovement backward when an occupant sits on and leans against theoccupant contact surface. For example, sensation of the pad making astroke movement felt by the portions under thighs improves by formingthe recessed holes in the rear surface below the under-thighs portion.

FIG. 17 is a plan view showing an example of a seat pad for a vehicle,having recessed holes in the rear surface of the occupant contactsurface of the seat pad. FIG. 18 is an enlarged perspective view, fromthe down side, of the rear surface (the bottom surface of the pad) belowthe under-thighs portion of the seat pad. FIG. 19 is a sectional viewcut along the line XIX-XIX of FIG. 18.

The seat pad 1D for a vehicle is a cushion pad formed of polyurethanefoam, which is as a whole integrally foam molded. The seat pad 1Dincludes an under-thighs portion 2, an under-buttocks portion 3 and sideportions 4 as in the foregoing embodiments.

In the upper surface of the seat pad 1D for a vehicle, longitudinalfitting grooves 5 and a lateral fitting groove 6 for fitting a covermaterial (not shown) are formed such that these grooves form a H-likeconfiguration.

Plural recessed holes 8 are formed in the rear surface, i.e. the bottomsurface of the seat pad 1D, below the under-thighs portion 2 so that theportions between the recessed holes 8 constitute the ridge portions 9.Provided that the entire length in the front-rear direction of the seatpad 1D is L₁, the distance between the front edge of a region where therecessed holes 8 and the ridge portions 9 are provided and the front endof the seat pad (the front end of the seat pad 1D in a plan view) is L₂,and the distance between the front edge and the rear edge of the regionis L₃, L₁ is normally in the range of 550 to 650 mm, L₂ is preferably inthe range of 5 to 100 mm, more preferably in the range of 10 to 50 mm,and L₃ is preferably in the range of 200 to 350 mm, more preferably inthe range of 250 to 300 mm.

In the present embodiment, the shapes, dimensions and the like of therecessed holes and the ridge portions may be any of those describedabove.

When an occupant sits on the sitting surface of the seat pad 1D and thethighs of the occupant are in contact with the under-right thigh portionof the seat pad, mainly the ridge portions 9 are compression-deformed atthe initial stage and then the entire part of the under-thighs portionof the seat pad 1D sinks downward almost evenly, whereby the occupantfeels good sensation of the pad making a stroke movement. Thereafter, asthe occupant's body further sinks in the seat and the ridge portions 9are further compression-deformed, the repellent force of the ridgeportions 9 increases strong enough to stably support the occupant'sbody.

Although the recessed holes 8 and the ridge portions 9 are provided inthe rear surface of the seat pad below the under-thighs portion 2 inFIGS. 17 to 19, the recess holes and the ridge portions may be providedin both of the rear surfaces of the seat pad below the under-thighsportion 2 and the under-buttocks portion 3 or may be provided in eitherthe rear surface of the seat pad below the under-thighs portion 2 or therear surface of the seat pad below the under-buttocks portion 3.

Further, the rear surface of the seat pad below the pelvis contactportion 23 (see FIG. 7) may be made flat to firmly support the pelvis,while the rear surface of the seat pad below other portions of thesitting surface 22 may be provided with the recessed holes to enhancesensation of the pad making a stroke movement.

In the present invention, sensation of the pad making a stroke movementmay be improved by forming recessed holes in the rear surface of a seatback pad. FIG. 20 is a front view of a seat back pad showing one examplethereof. Cover fitting longitudinal grooves 41, 41 are formed tocontinuously extend in the vertical direction on the left and right handsides of the front surface of a seat back pad 40. Cover fitting lateralgrooves 42, 43 are formed to extend in the left-right direction andcommunicate with the cover fitting longitudinal grooves 41, 41. Therecessed holes as any of those described above are formed in the rearsurface of the seat back pad in a back contact region 44 above the uppercover fitting lateral groove 42, thereby improving sensation of the padmaking a stroke movement in the back contact region 44. The recessedholes may also be formed in the rear surface of an intermediate region45 below the back contact region 44. It is preferable not to formrecessed holes in a lumbar contact portion 46 below the intermediateregion 45, to improve the lumbar supporting properties.

The lower edge of the back contact region substantially corresponds withthe cover fitting lateral groove 42. The distance between the lower edgeof the back contact region and the sitting surface of the seat ispreferably in the range of 250 to 500 mm, more preferably in the rangeof 300 to 400 mm. The distance between the upper edge of the backcontact region and the upper end of the seat back pad 40 is preferablynot larger than 100 mm and more preferably in the range of 20 to 50 mmor so.

[Seat for Vehicle, Including a Cushion Pad and a Back Pad Each HavingRecessed Holes Formed Therein]

A seat for a vehicle according to an embodiment of the present inventionincludes a seat cushion pad and a seat back pad each having recessedholes formed therein.

FIG. 21 is a front view of a back pad of the seat for a vehicle of suchan embodiment as described above.

Any of the seat cushion pads shown in FIGS. 1 to 16 may be used as thecushion pad of the seat for a vehicle of the present embodiment.

As shown in FIG. 21, cover fitting longitudinal grooves 51, 51 areformed to continuously extend in the vertical direction on the left andright hand sides of the front surface of a seat back pad 50. Coverfitting lateral grooves 52, 53 are formed to extend in the left-rightdirection and communicate with the cover fitting longitudinal grooves51, 51. Recessed holes are formed in the front surface of a back contactportion 54 (defined by two-dot lines in FIG. 21) above the upper coverfitting lateral groove 52, to improve soft sensation of touch in theback contact portion.

The lower edge of the back contact portion 54 substantially correspondswith the cover fitting lateral groove 52. The distance between the loweredge of the back contact portion 54 and the sitting surface of the seatis preferably in the range of 250 to 500 mm, more preferably in therange of 300 to 400 mm. The distance between the upper edge of the backcontact portion 54 and the upper end of the back pad 50 is preferablynot larger than 100 mm and more preferably in the range of 20 to 50 mmor so.

Recessed holes may also be formed in a region 55 between the coverfitting lateral grooves 52 and 53. It is preferable not to form recessedholes in a lumbar supporting portion 56 below the cover fitting lateralgroove 53.

The upper portions 57 (defined by two-dot lines in FIG. 21) of the sideportions, i.e. the side regions of the back contact portion 54, may bemade soft by forming recessed holes.

In the present embodiment, the shapes, the areas of an openings, and thelike of the recessed holes may be any of those described above.

In the present embodiment, the recessed holes of the back pad is madedeeper than the recessed holes of the cushion pad. Accordingly, the backpad is made softer than the cushion pad. The average depth of therecessed holes in the cushion pad is preferably in the range of 2 to 40mm, more preferably in the range of 5 to 10 mm, and the average depth ofthe recessed holes in the back pad is preferably 2 to 20 times and morepreferably 5 to 10 times as much as the average depth of the recessedholes in the cushion pad.

When an occupant sits on the sitting surface of the cushion pad of thevehicle seat as structured above and leans against the back contactportion of the back pad so that the thighs and the back of the occupantare in contact with the under-thighs portion and the back contactportion of the seat pad, respectively, mainly the ridge portions betweenthe recessed holes are compression-deformed at the initial stage and theoccupant feels soft sensation of touch. Then, as the ridge portions arefurther compression-deformed, the repellent force of the ridge portionsincreases and the occupant's body is stably supported.

The recessed holes are formed in the respective occupant contactsurfaces of the cushion pad and the back pad in the embodiment of FIG.21. However, recessed holes may be formed in the respective surfacesopposite to the occupant contact surfaces of the cushion pad and theback pad such that the recessed holes in the back pad are deeper thanthe recessed holes in the cushion pad. In this case, sensation of thepad making a stroke movement more improves in the back pad than in thecushion pad. In a case where recessed holes are formed in the surfaceopposite to the occupant contact area, the average depth of the recessedholes in the back pad is preferably 2 to 20 times and more preferably 5to 10 times as much as the average depth of the recessed holes in thecushion pad.

EXAMPLES

Examples and Comparative Examples will be described hereinafter. Forconvenience, Comparative Example 1 will be described first.

Comparative Example

A seat pad formed of polyurethane foam having density of 64 kg/cm³ and25% hardness of 24 kgf/200 mmφ was prepared. No recessed holes 8 areformed in the seat pad. A load-stroke curve at the sitting surface ofthe seat pad was obtained. In the measurement of the load-stroke curve,a load applying means having diameter of 200 mm was pressed against thesitting surface at a rate of 0.8 mm/sec and the reaction force wasmeasured. The result is shown in FIG. 22. The volume ratio of the ridgeportions is 100% because no recessed holes are formed in the seat pad.

Example 1

A seat pad as shown in FIGS. 1 to 3 was produced by providing projectingportions in a surface (a cavity surface) for molding an under-thighsportion of a mold for use in molding of Comparative Example 1 and usingthe same urethane raw liquid as Comparative Example 1. The dimensions ofw, t and h are 20 mm, 4 mm and 10 mm, respectively. The volume rate ofthe ridge portions 9 in Example 1 is 33.3%. The density and the 25%hardness of polyurethane are 64 kg/cm³ and 19 kgf/200 mmφ, respectively.A load applying means was pressed against the under-thighs portion ofthe seat pad in a manner similar to Comparative Example 1 and aload-stroke curve was obtained. The result is shown in FIG. 22.

Comparative Example 2

A seat pad main body was prepared in the same manner as in ComparativeExample 1, except that the sitting surface was structured as a shallowlyrecessed portion of 10 mm depth.

Further, there was separately prepared a slab having thickness of 10 mmby using slab urethane foam having density of 64 kg/cm³ and 25% ILDhardness of 24 kgf/200 mmφ.

The slab thus prepared was attached to the recessed portion of the seatpad main body by an adhesive, whereby a seat pad was prepared. A loadapplying means was pressed against the seat pad in a manner similar toComparative Example 1 and a load-stroke curve was obtained. The resultis shown in FIG. 22.

[Consideration]

As shown in FIG. 22, the load-stroke curve of the seat pad of Example 1resembles the load-stroke curve of the seat pad of Comparative Example 2(the slab-attaching type). It is thus confirmed that the seat pad of thepresent invention is excellent in soft sensation of touch, of thesurface thereof, and the properties of supporting the occupant's body.

In contrast, load significantly increases when a stroke exceedsapproximately 1 mm in Comparative Example 1, as compared with Example 1and Comparative Example 2. Accordingly, it is confirmed that the seatpad of Comparative Example 1 lacks soft sensation of touch.

Example 2

A seat pad as shown in FIGS. 1 to 3 was prepared by setting: thedimensions w, t and h at 26 mm, 4 mm and 10 mm, respectively; the ratioof areas of the ridge portions 9 in the total areas of the recessedholes 8 and the ridge portions 9 at 25%; the volume rate of the ridgeportions 9 at 25%; and the density and the 25% hardness at 64 kg/cm³ and18 kgf/200 mmφ, respectively. A load applying means was pressed againstthe seat pad in a manner similar to Comparative Example 1 and aload-stroke curve was obtained. The result is shown in FIG. 23.

Example 3

A seat pad was prepared in the same manner as in Example 2, except thatthe recessed holes were structured as shown in FIG. 5. The length L ofthe largest diagonal line of the equilateral hexagon is 28 mm, t=4 mmand the depth h=10 mm. The volume rate of the ridge portions 11 is 25%.The measurement result of a load-stroke curve is shown in FIG. 23.

Comparative Example 3

A seat pad main body was prepared in the same manner as in ComparativeExamples 2 and 3, except that the sitting surface was structured as ashallowly recessed portion of 10 mm depth.

Further, there was separately prepared a slab having thickness of 10 mmby using slab urethane foam having density of 30 kg/cm³ and 25% ILDhardness of 7 kgf/200 mmφ.

The slab thus prepared was attached to the recessed portion of the seatpad main body by an adhesive, whereby a seat pad was prepared. Aload-stroke curve of the seat pad was obtained. The result is shown inFIG. 23.

Examples 4 and 5, Comparative Example 4

Seat pad main body was prepared in the same manners as in Examples 2, 3and Comparative Example 3, respectively, except that the density of thepolyurethane foam was changed to 67 kg/m³. A load-stroke curve wasmeasured for each of Example 4, Example 5 and Comparative Example 4 thusperformed in the same manner as the foregoing Examples. The results areshown in FIG. 24.

[Consideration]

As shown in FIG. 23, the load-stroke curves of the seat pads of Example2 and Example 3 each resemble the load-stroke curve of the seat pad ofComparative Example 3 (the slab-attaching type). It is thus confirmedthat the seat pads of the present invention are excellent in softsensation of touch, of the surfaces thereof, and the properties ofsupporting the occupant's body.

Further, as is obvious from FIG. 24, soft sensation of touch, of a seatpad surface, changes as the density of polyurethane foam changes,although the same configuration is maintained therein. Accordingly it isconfirmed that soft sensation of touch, of a seat pad surface, can beadjusted by controlling the density and hardness of the pad.

Comparative Example 5

A seat pad was prepared by using polyurethane foam having density of 64kg/cm³ and 25% hardness of 24 kgf/200 mmφ. A load-stroke curve at thesitting surface of the seat pad was obtained in the same as in theforegoing Examples. The result is shown in FIG. 25. No recessed holesare formed in the seat pad. The volume rate of the ridge portions is100% because no recess holes exist.

Example 6

A seat pad having a softened under-thighs portion was produced by usingthe same urethane raw liquid as Comparative Example 5 and providingprojecting portions in a surface (a cavity surface) for molding anunder-thighs portion of a mold for molding such that circular recessedholes as shown in FIG. 6 are formed in the under-thighs portion. Thediameter, the depth, and the distance between the centers of adjacentrecessed holes 12 were set at 12 mm, 5 mm, and 19 mm, respectively. Thevolume rate of the ridge portions 13 is 70%. A load applying means waspressed against the under-thighs portion of the seat pad in the samemanner as in Comparative Example 5 to obtain a load-stroke curve. Theresult is shown in FIG. 25.

Example 7

A seat pad was prepared in the same manner as in Example 6, except thatthe diameter, the depth, and the distance between the centers ofadjacent recessed holes 12 were set at 19 mm, 5 mm, and 26 mm,respectively, and the volume rate of the ridge portions 13 was 50%.

Example 8

A seat pad was prepared in the same manner as in Example 6, except thatthe diameter, the depth, and the distance between the centers ofadjacent recessed holes 12 were set at 24 mm, 5 mm, and 30 mm,respectively, and the volume rate of the ridge portions 13 was 40%.

Example 9

A seat pad was prepared in the same manner as in Example 6, except thatthe diameter, the depth, and the distance between the centers ofadjacent recessed holes 12 were set at 28 mm, 5 mm, and 32 mm,respectively, and the volume rate of the ridge portions 13 was 25%.

A load applying means was pressed against the under-right thigh portionof each of the seat pads of Examples 7 to 9 in the same manner as inComparative Example 1 to obtain a load-stroke curve. The results areshown in FIG. 25.

[Consideration]

As shown in FIG. 25, the under-right thigh portions of the seat pads ofExamples 6 to 9 are softer than that of Comparative Example 5,respectively. Further, it is confirmed that the seat pad is made softeras the volume rate of the ridge portions drops. Residual strain afterbeing subjected to 50% compression for 22 hours in a bath at 50° C.(constant) and humidity of 95% (constant) was measured for each of theunder-thighs portions of the seat pads of Examples 6 to 9. The resultsare shown in FIG. 26.

Further, the corner edges of each ridge portion on the base end side andthe tip end side were provided with curved surfaces (R=3.5 mm),respectively, in Example 7. It was confirmed that the residual strainafter compression was then decreased from 19.8% to 18.8%.

1. A seat pad formed of resin foam molding, for use in a vehicle,comprising: ridge portions having flat top surfaces and provided to becontinuously present in plural directions, the ridge portions beingprovided between a number of recessed holes formed at least in a part ofan occupant contact surface area of the seat pad.
 2. The seat pad for avehicle of claim 1, wherein the total of areas of the top surfaces ofthe respective ridge portions constitute 20 to 80% of the total area ofthe recessed holes and the ridge portions.
 3. The seat pad for a vehicleof claim 2, wherein the total of areas of the top surfaces of therespective ridge portions constitute 20 to 50% of the total area of therecessed holes and the ridge portions.
 4. The seat pad for a vehicle ofclaim 1, wherein the depth of each recessed hole is in the range of 2 to40 mm.
 5. The seat pad for a vehicle of claim 4, wherein the depth ofeach recessed hole is in the range of 5 to 20 mm.
 6. The seat pad for avehicle of claim 1, wherein the area of an opening of each recessed holeis in the range of 50 to 1000 mm² and the width of each ridge portion isin the range of 2 to 10 mm.
 7. The seat pad for a vehicle of claim 6,wherein the area of an opening of each recessed hole is in the range of100 to 900 mm² and the width of each ridge portion is in the range of 2to 10 mm.
 8. The seat pad for a vehicle of claim 1, wherein the recessedholes and the ridge portions are provided at least in an under-thighsportion of the seat pad.
 9. The seat pad for a vehicle of claim 1,wherein the ridge portions are provided to be continuously present intwo intersecting directions.
 10. The seat pad for a vehicle of claim 9,wherein the ridge portions are provided to be continuously present intwo orthogonally intersecting directions.
 11. The seat pad for a vehicleof claim 10, wherein each recessed hole has a square shape.
 12. The seatpad for a vehicle of claim 1, wherein the ridges are provided to becontinuously present in three directions.
 13. The seat pad for a vehicleof claim 12, wherein each recessed hole has a triangular, polygonal,circular or substantially ellipsoidal shape.
 14. The seat pad for avehicle of claim 12, wherein each recessed hole has a hexagonal shape.15. A seat pad formed by a resin foam molding body, for use in avehicle, comprising: plural recessed holes formed at least in a part ofan occupant contact surface area or a part of the rear surface areaopposite to the occupant contact surface of the seat pad.
 16. The seatpad for a vehicle of claim 15, wherein the depth of each recessed holeis in the range of 2 to 40 mm.
 17. The seat pad for a vehicle of claim15, wherein the area of an opening of each recessed hole is in the rangeof 50 to 1000 mm².
 18. The seat pad for a vehicle of claim 15, whereineach recessed hole has a triangular, square, polygonal, circular orelongated hole-like shape.
 19. The seat pad for a vehicle of claim 15,wherein portions between the recessed holes constitute ridge portions.20. The seat pad for a vehicle of claim 19, wherein the width of eachridge portion is in the range of 2 to 10 mm.
 21. The seat pad for avehicle of claim 19, wherein the ridge portions are provided to becontinuously present in two intersecting directions.
 22. The seat padfor a vehicle of claim 19, wherein the ridge portions are provided to becontinuously present in three directions.
 23. The seat pad for a vehicleof claim 22, wherein each recessed hole has a hexagonal shape.
 24. Theseat pad for a vehicle of claim 19, wherein a volume rate of the ridgeportions in a region where the recessed holes and the ridge portions areprovided is in the range of 10 to 80%.
 25. The seat pad for a vehicle ofclaim 24, wherein the volume rate of the ridge portions is in the rangeof 40 to 60%.
 26. The seat pad for a vehicle of claim 19, wherein theridge portions have flat top surfaces.
 27. The seat pad for a vehicle ofclaim 19, wherein at least one of a corner edge where the top surfaceand a side surface of each ridge portion intersects each other and acorner edge where a side surface of each ridge portion and the bottomsurface of an adjacent recessed hole intersects each other has a curvedsurface.
 28. The seat pad for a vehicle of claim 19, wherein a sectionalarea of an opening of each recessed hole remains substantially unchangedfrom an entrance portion to the deepest bottom portion thereof.
 29. Theseat pad for a vehicle of claim 19, wherein a sectional area of anopening on the deeper side of the each recessed hole is smaller than asectional area of the opening on the entrance side of the recessed hole.30. The seat pad for a vehicle of claim 19, wherein the seat pad isformed of polyurethane foam having density of 20 to 100 kg/cm³, 25% ILDhardness of 5 to 45 kgf/200 mmφ.
 31. The seat pad for a vehicle of claim30, wherein the seat pad is formed of polyurethane foam having densityof 35 to 100 kg/cm³, 25% ILD hardness of 15 to 45 kgf/200 mmφ.
 32. Theseat pad for a vehicle of claim 15, wherein the recessed holes areformed at least in a part of an occupant contact surface area.
 33. Theseat pad for a vehicle of claim 32, wherein the seat pad is a seatcushion pad, in which a corner edge region where a sitting surface and afront surface thereof intersect each other lacks the recess holes. 34.The seat pad for a vehicle of claim 33, wherein the corner edge regionis a region having a radius of curvature of 100 mm or less.
 35. The seatpad for a vehicle of claim 32, wherein the recessed holes are providedat least in an under-thighs portion of the seat pad.
 36. The seat padfor a vehicle of claim 35, wherein the recessed holes are formed suchthat a portion under the right thigh, of the under-thighs portion, issofter than other portions of the under-thighs portion.
 37. The seat padfor a vehicle of claim 32, wherein the recessed holes are formed only ina portion under the right thigh, of the seat pad.
 38. The seat pad for avehicle of claim 32, wherein the recessed holes are formed in a frontsurface which is to face the lower parts of legs of an occupant.
 39. Theseat pad for a vehicle of claim 15, wherein the recessed portions areformed at least in a part of the rear surface area opposite to theoccupant contact surface.
 40. The seat pad for a vehicle of claim 39,wherein the recessed holes are formed at least in a bottom surface belowthe under-thighs portion.
 41. The seat pad for a vehicle of claim 40,wherein the recessed holes are formed such that a portion under theright thigh, of the under-thighs portion, is softer than other portionsof the under-thighs portion.
 42. The seat pad for a vehicle of claim 39,wherein the recessed holes are formed only in the bottom portion belowthe portion under the right thigh, of the seat pad.
 43. A seat for avehicle, having a cushion pad and a back pad constituted of the seat padof claim 32, characterized in that recessed holes in the back pad isdeeper than recessed holes in the cushion pad.
 44. The seat pad for avehicle of claim 43, wherein the recessed holes are formed at least inan under-thighs portion of the cushion pad and a back contact portion ofthe back pad.
 45. A seat for a vehicle, having a cushion pad and a backpad constituted of the seat pad of claim 39, characterized in thatrecessed holes in the back pad is deeper than recessed holes in thecushion pad.
 46. A seat for a vehicle of claim 45, wherein the recessedholes are formed at least in a bottom surface below an under-thighsportion of the cushion pad and a rear surface behind a back contactportion of the back pad.